COMPARING DIFFERENT SOFTWARE INTEGRATION TECHNOLOGIES Author Jones Olaiya Ogunduyilemi (Internet &...
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COMPARING DIFFERENT SOFTWARE INTEGRATION TECHNOLOGIES
Author
Jones Olaiya Ogunduyilemi
(Internet & Software Technology)E-mail: [email protected]
Supervisor:Yvonne Dittrich
Associate ProfessorSoftware Development Group
MastersThesis Presentation
04 April 2008
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Agenda1. Introducing the project2. Application situation in Minton3. Application integration in perspectives4. Expectation5. Techniques & Technologies6. Levels of integration7. Criteria & requirements8. Patterns9. Demonstration (prototypes)10. Technologies compared11. Observation and future perspectives12. Errors detected13. Questions
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Introduction• Application communicating together
• Its complexities (hosting on different OS, Programming languages, protocols etc)
• Efforts to link programs together:– The need for programs to share data in a
uniformed, consistent way– The need for programs to communicate
independently – How new application could be added to the
current architecture in a scalable way– Security issues
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Applications in Minton
CI Sys.
DB
Ordering sys
DB
Inv sys
DB
SAP
DB
ERP
DB
Sales
DB
Resource Tracking sys.
DB
CRM
DB
SCM
DB
HR
DB
etc
DB
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APPLICATION INTEGRATION 4 types of application integration have evolved
• Simple replication (a simple duplication of all or portions of an application, creating a single master with multiple slaves.)
• Data integration (use of tools that move data from a master application to one or more slave application)
• Function integration (one application programmatically invoking code that lies in another application) and, finally,
• True application integration (making one application available within the context of another without actually duplicating the application itself)
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Organisational target• Connecting application together and ensure
interoperability between applications
• Scalability
• Efficient sharing of data
• Maintainability
• Security
• De-coupling
• Transparency / Reliable message delivery
• Certified message delivery
• Accuracy / Fault tolerance
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Applicaion integrationTechniquesManual integration (heavily depend on human efforts)
• Print re-typing• Copy re-entrySemi – Automated (combine human effort + automation)
• File transfer/point-to-point• Shared Database Automated integration (serve as intermediate layer)
• Middleware(generic interface through which applications communicate handling routing, data transfer etc)
• Service oriented integration (publish – subscribe technique)
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POINT – TO - POINT
CI Sys.
DB
Ordering sys
DB
Inv sys
DB
Sales
DB
6 connections
12 interfaces
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COMPLEXITY
CI Sys.
DB
Ordering sys
DB
Inv sys
DB
SAP
DB
ERP
DB
Sales
DB
Resource Tracking sys.
DB
CRM
DB
SCM
DB
HR
DB
etc
DB
11 applications: 55 connections 110 interfaces
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Middleware Integration Efforts
RCM CI System
Ordering/Scheduling
Sales/Marketing
Resource Tracking
WarehouseManagementSystem
AccountsReceivable
PS
S
P S
P
S P SP
SP
S
MintonMIDDLEWARE
7 applications: 7 connections 14 interfaces
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Service-Oriented Integration
Connects applications through the exchange of documents, usually in the form of XML documents.
Does not imply interaction with a specific instance of a remote object. Instead, when the document is passed from the consumer to the provider, it triggers the execution of a specific function or service that is self-contained and stateless.
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Integration Architectural Patterns
• Files sharing
• Shared Database
• Remote procedure call
• Messaging
• Services (Service-Oriented Integration)
• Distributed Object Integration (also known as instance-based integration), which allows the client to manage the lifetime of a specific remote object instance.
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LEVELS OF INTEGRATION• DATA LEVEL• Data centric accessing different Databases without changing to
application code
• MESSAGE LEVEL• Application dependent and more invasive as it requires more
modification to existing applications (creating interface etc) – Data transport across heterogeneous platforms– Location independence– Self-describing data– LAN and WAN capability
• SERVICE LEVEL• Messages are sent with location independence
– Subscribers need not know where the data is coming from– Publishers need not know where the data is going to
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Criteria and requirements
Criteria Requirements
•Application coupling•Scalability•Interoperability•Data format•Availability•Cross platform•Low cost•Data Security•Remote Communication (synchronicity)
•Maintainability and reusability•Performance•Efficiency•Reliability•Data consistency
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DEMOPROTOTYPE 1: FILE TRANSFER
PROTOTYPE 2: REQUEST – REPLY POINT .TO-POINT
PROTOTYPE 3: MESSAGING /IBM WEBSPHERE MQ [6.0 PROTO]
PROTOTYPE 4 : MIDDLEWARE / DATABASE SCHEMA DETECTIONLinks: http://www.itu.dk/people/oladjones/DBRWA/users/
PROTOTYPE 5 : WEB SERVICES
PROTOTYPE 6: CORBA
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Prototype 1File sharing integration
Customer info system
CI Sys. API
Invoicing system
Inv Sys.API
DB
Central server
FILE
Shared folder
Fetch data
Send data Fetch data
Request data
DB
Store data
Use data
FTP FTP
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Prototype 2Request – reply point-to-point
Inv. Sys
(Invoicing System)
CI Sys.
(Customer Info System)
Request Channel
Reply Channelm
m
Inv Sys
CI Sys
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Prototype 4 MIDDLEWARE / DB SCHEMA DETECTION
Links: http://www.itu.dk/people/oladjones/DBRWA/users/
DB Connector
User Interface
AJAX Engine
PROG2
API
CI SYS
API
Q
PROG 4
API
Q
Inv. SYS
API
Q
PROG 2
API
M
DATABASE SERVER
DB DB DB
XMLHTTP Request XMLHTTP Response
MOM
XMLHTTP Request XMLHTTP Response
XMLHTTP Request XMLHTTP Response
QM
Key Message channel Client connection XMLHTTPRequest XMLHTTPResponse Message M
Q
QM
CI SYS
API
PROG 4
API
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Criteria Point-to-point Middleware Service oriented
Scalability •Scalability is not guaranteed in a complex enterprise solution
•Scalable •Scalable
Exchange format
•Data are exchanged based on the agreed format.
•Most cases cross platform format (xml)
•XML
Reliability •Only reliable for prototyping and integrating very few applications
•Reliable but initially complex to setup
•More reliable but less established technology
Strength •Commonly for low level integration•Many point to point integrations already exist•No major up front investment required
•Reliable, guaranteed delivery•Enables real-time business decisions•Out of box adapters for many enterprise systems
•Standards based integration•High degree of reuse•Wide tool support including open source•Low up front investment
Weakness •Costly over time•Tight coupling•Scalability issues•Opportunities for reuse are slim•Complex to add new application to the architecture
•High upfront cost•Relatively complex design patterns•Requirements for third party middleware
•Lack of transaction support•Demands for more policy•Less established technology
Technologies compared
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Future proposal• XML: The ability to store, parse, validate, query and update XML
documents efficiently in the database.
• Web Services: The ability to expose database objects (tables, stored procedures, and so on) as Web services and also be able to invoke external Web services from within the database.
• Asynchronous Message Queuing: The ability to guarantee the delivery of messages, exactly once, to other networked and distributed applications in spite of system failures.
• Event Notification: The ability to distribute important business events to a large number of users and devices, in a format appropriate to the receiver, in an efficient manner.
• Query Notification: The ability for an application to “subscribe” to changes in the databases that affect the results of a specific query and to be notified when the changes take place.
• Security: the security level of access to database through middleware or API should be well defined in order to ensure that data are securely guided between applications that access them.
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ERRORS DETECTED IN THE REPORT
• Chapter four contains wrong figure numbers (this was caused by interchanging chapters during re-organisation)
• Chapter 6 section 6.7 (page 102) paragraph 3
• Could not append all codes due to cost of printing in ITU